The origins, relationships, evolution and conservation of the weirdest marine bivalves: The watering pot shells. A review.

3区 生物学 Q1 Agricultural and Biological Sciences
Advances in Marine Biology Pub Date : 2021-01-01 Epub Date: 2021-05-21 DOI:10.1016/bs.amb.2021.03.001
Brian Morton, Fabrizio Marcondes Machado
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引用次数: 1

Abstract

The fossil record shows that the two clavagelloid or watering pot families evolved at different times, the Clavagellidae first in the late Mesozoic (100-66mya), the Penicillidae later in the Cenozoic (33-23mya)-the former originally with, thus, a near-global Tethyan distribution, the latter restricted to the Indo-West Pacific. Representatives of the two clavagelloid families, moreover, have wholly different adventitious tube/crypt structures and, thus, methods of formation suggesting that evolutionary experiments have been undertaken to achieve such radical architectural novelties. This has resulted in one of the most surprising examples of convergent evolution in the Bivalvia. But, what were the ancestors of the Clavagelloidea? The shell and internal morphology of representatives of the three recognized genera of the Lyonsiidae, that is, Lyonsia, Entodesma and Mytilimeria, are described. Species of the latter two genera are highly specialized epibenthic, byssate, nestlers and embedded symbionts of ascidian colonies and sponges, respectively. Species of Lyonsia, however, are mostly shallow endobenthic burrowers. On the basis of these studies, it is concluded that species of Lyonsia can be regarded as representative of the ancestral watering pot (Clavagelloidea) condition. Evidence for this conclusion include the mineralogy, characteristics and ligament structure of the shell and features of the anatomy, importantly the modification of the vestigial pedal retractor muscles to form simple (Clavagellidae) and more complex (Penicillidae) proprioreceptors. Such an anatomy-based conclusion is supported to some extent by DNA analyses of representatives of the Lyonsiidae and the two constituent families of the Clavagelloidea. To some extent because all clavagelloids are exceedingly rare hindering such analyses. Such rarity, however, also argues for the strict conservation of all the species of the Clavagelloidea.

最奇怪的海洋双壳类动物的起源、关系、进化和保护:水壶壳。复习一下。
化石记录表明,这两种壶类植物是在不同的时期进化的,壶类植物最早出现在中生代晚期(100-66亿年前),青霉科则出现在新生代(33-23亿年前)——因此,前者最初分布在几乎全球的特提斯,后者则局限于印度-西太平洋。此外,两个克拉瓦格里亚家族的代表具有完全不同的不定形管/隐窝结构,因此,形成方法表明,已经进行了进化实验,以实现这种激进的建筑新颖。这导致了比瓦尔维亚群岛最令人惊讶的趋同进化的例子之一。但是,击弦科的祖先是什么呢?描述了Lyonsia, Entodesma和Mytilimeria三个公认属的代表,即Lyonsia, Mytilimeria的壳和内部形态。后两属的物种分别是高度特化的海鞘群落和海绵的底栖、旁栖、巢栖和嵌入式共生体。然而,Lyonsia的种类大多是浅底栖穴居动物。在这些研究的基础上,得出结论,Lyonsia种可以作为祖先水壶(clavagello总科)条件的代表。支持这一结论的证据包括壳的矿物学、特征和韧带结构以及解剖学特征,重要的是残留的脚牵开肌被修饰成简单的(Clavagellidae)和更复杂的(Penicillidae)本体感受器。这种基于解剖学的结论在一定程度上得到了Lyonsiidae代表和clavagello总科两个组成科的DNA分析的支持。在某种程度上,因为所有的克拉瓦氏体都非常罕见,阻碍了这种分析。然而,这种罕见性也证明了对所有克拉瓦盖总科物种的严格保护。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Advances in Marine Biology
Advances in Marine Biology MARINE & FRESHWATER BIOLOGY-
CiteScore
6.10
自引率
0.00%
发文量
6
审稿时长
12 months
期刊介绍: Advances in Marine Biology was first published in 1963 under the founding editorship of Sir Frederick S. Russell, FRS. Now edited by Charles Sheppard, the serial publishes in-depth and up-to-date reviews on a wide range of topics which will appeal to postgraduates and researchers in marine biology, fisheries science, ecology, zoology and biological oceanography. Eclectic volumes in the series are supplemented by thematic volumes on such topics as The Biology of Calanoid Copepods.
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